渐开线内啮合弧面蜗杆是我们近几年来提出和研制的一种新型蜗杆传动。
This paper is the first report on theoretical research of the involute, internallyengaged, double-enveloping worm gear drive.
内啮合弧面凸轮机构可用作高效大转矩的减速装置,有很好的应用前景与推广价值。
The inner engagement globoidal cams mechanism can be used for the high efficency and high torque speed reducer , and shows bright future in application.
提出一种在转子上设置虚拟支承的方法,以保证弧齿锥齿轮的啮合稳定性,并采用传递矩阵法,建立了弧齿锥齿轮-转子系统的振动模型。
This paper presents a method of providing a virtual support for the rotor to assure the meshing stability of a pair of a pre determined spiral bevel gears in rotation.
弧齿锥齿轮广泛用于肮空传动,作为直升机的关键零件,其啮合质量的控制是一个既重要又困难的课题。
Spiral bevel gears are widely used in aviation transmission. As key components of helicopter, controlling their meshing quality is an important and difficult problem.
由局部综合法,利用二阶接触参数的可预控性,从而优化弧齿锥齿轮的啮合性能。
Based on the local synthesis method, the meshing behavior is optimized with the help of controllability of the second order contact parameters.
本文对仪表园弧齿轮的啮合进行了研究,提出了正确啮合的条件。
The engagement of the instrumental circular tooth gear transmission has been investigated. The condition of the correct engagement is given.
还系统地分析了可控点啮合的实现及点啮合球锥滚子弧面分度凸轮机构的曲面方程。
Systematic analyses are made on the realization of engagement at the controllable point and on the curved surface equation of point engaged sphere-conical roller arc surfaced indexing cam mechanism.
首次采用线图法分析了其啮合过程,建立了双圆弧齿廓弧齿锥齿轮重合度、多点接触系数和多对齿接触系数计算方法;
The meshing process is analyzed using line graph method firstly, calculation methods of the contact ration, multi-point contact coefficient and multi-pair contact coefficient are established;
双圆弧弧齿锥齿轮是将点啮合制圆弧齿轮传动形式运用到锥齿轮上的成功例子。
Its basic gear tooth profile is double circular arc spiral bevel gear tooth profile.
本文阐述了平面二次包络弧面蜗杆传动的几何特征,引用数学方程对这些特征加以说明,进而提出了啮合参数选择原则。
In this paper, the geometric characteristics of worm drive with double enveloping arc surface machined by datum-plane tool are stated.
本文阐述了平面二次包络弧面蜗杆传动的几何特征,引用数学方程对这些特征加以说明,进而提出了啮合参数选择原则。
In this paper, the geometric characteristics of worm drive with double enveloping arc surface machined by datum-plane tool are stated.
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